Syed Hossainy, Hayward US

Syed Hossainy, Hayward, CA US

Patent application number

Description

Published

20100222872

Methods, Compositions and Devices for Treating Lesioned Sites Using Bioabsorbable Carriers - Methods and compositions for the sustained release of treatment agents to treat an occluded blood vessel and affected tissue and/or organs are disclosed. Porous or non-porous bioabsorbable glass, metal or ceramic bead, rod or fiber particles can be loaded with a treatment agent, and optionally an image-enhancing agent, and coated with a sustained-release coating for delivery to an occluded blood vessel and affected tissue and/or organs by a delivery device. Implantable medical devices manufactured with coatings including the particles or embedded within the medical device are additionally disclosed.

09-02-2010

20110027188

Methods, Compositions and Devices for Treating Lesioned Sites Using Bioabsorbable Carriers - An implantable medical device is disclosed having a plurality of smaller particles contained in a plurality of larger particles and configured to be released from the larger particles when the device is implanted in a patient. The smaller particles and the larger particles are made of bioabsorbable metal, glass or ceramic. A substance can be associated with the smaller particles. The larger particles can be embedded within at least a portion of the device.

02-03-2011

20110143014

COATINGS WITH TUNABLE MOLECULAR ARCHITECTURE FOR DRUG-COATED BALLOON - A drug delivery balloon is provided, the a balloon having an outer surface, and a tunable coating disposed on at least a length of the balloon surface. The tunable coating includes a first therapeutic agent and a first excipient, and can include a second therapeutic agent and a second excipient. The first and second therapeutic agents have different dissolution rates during balloon inflation and therefore provide a coating that is tunable.

06-16-2011

20110144577

HYDROPHILIC COATINGS WITH TUNABLE COMPOSITION FOR DRUG COATED BALLOON - A tunable coating formulation is described for a drug delivery balloon comprising a therapeutic agent, an excipient and a plasticizer. The tunable coating includes a first therapeutic agent and a first excipient, and can have a second therapeutic agent and a second excipient. The first and second therapeutic agents have different dissolution rates during balloon inflation and therefore provide a coating that is tunable. The plasticizer in the formulation has a weigh ratio of excipient to plasticizer below 1:0.1.

06-16-2011

20110144582

COATINGS WITH TUNABLE SOLUBILITY PROFILE FOR DRUG-COATED BALLOON - A drug delivery balloon is provided, the a balloon having an outer surface, and a tunable coating disposed on at least a length of the balloon surface. The tunable coating includes a first therapeutic agent and a first excipient, and a second therapeutic agent and a second excipient. The first and second therapeutic agents have different dissolution rates during balloon inflation and therefore provide a coating that is tunable.

06-16-2011

20110190871

Crush Recoverable Polymer Scaffolds - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold, after being deployed by the balloon, provides a crush recovery of about 90% after the diameter of the scaffold has been pinched or crushed by 50%. The scaffold has a pattern including an asymmetric closed cell connecting links connecting the closed cells.

08-04-2011

20110190872

Crush Recoverable Polymer Scaffolds Having a Low Crossing Profile - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold, after being deployed by the balloon, provides a crush recovery of about 90% after the diameter of the scaffold has been pinched or crushed by 50%. The scaffold also has a reduced crimped profile and a modification of the scaffold's ring structure at the crowns that contributes to the reduced crimped profile.

Drug Delivery System And Method Of Treatment Of Vascular Diseases Using Photodynamic Therapy - This invention relates to photodynamic therapy (PDT) of vulnerable plaque using two pluralities of nanoparticles, one plurality comprising a PDT agent that is sensitive to blue-green light wherein the nanoparticles are capable of penetrating only into the fibrous cap of the vulnerable plaque and one plurality comprising a PDT agent that is sensitive to red light wherein the nanoparticles are capable of penetrating into the core of the vulnerable plaque.

12-06-2012

20130103138

SURFACE MODIFICATION OF MEDICAL DEVICES TO ENHANCE ENDOTHELIAL ADHESION AND COVERAGE - Acceleration of the endothelialization process on implantable medical devices having at least one blood-contacting surface is achieved by a microscale pattern of sub-sections of EC-inductive coatings or EC-conductive coatings and nano/macro textured surfaces. The EC-inductive coating and EC-conductive coating can be applied either on the entire surface of the blood-contacting surface or selective placed on the blood-contacting surface, for example, in particular patterns. In this regard, the EC-conductive and EC-inductive coatings can be selectively placed relative to the textured surface to achieve a desired pattern of texture surface to coatings.

04-25-2013

20130158509

SYSTEM, APPARATUS, AND METHOD FOR DENERVATING AN ARTERY - The present disclosed subject matter is directed to a less invasive surgical system, apparatus and method including a guidable catheter for providing electroporation therapy to a subject suffering from heart or kidney disease. The system includes an electrical generator and an apparatus for denervating an artery. The apparatus includes a catheter having a proximal end, a distal end, a first lumen with a first exit port, a second lumen having a second exit port. The apparatus also includes a first needle including a first electrode. The apparatus also includes a displacement mechanism engaged to the catheter near the proximal end such that the displacement mechanism controls the linear position and angular position of the catheter.

06-20-2013

20130333193

TEMPERATURE CONTROLLED CRIMPING - This disclosure describes a method for crimping a stent with a polymer coating onto a catheter for percutaneous transluminal coronary angioplasty or other intraluminal interventions. The method comprises crimping the stent onto a catheter when the polymer coating is at a target temperature other than ambient temperature. The polymer coating can optionally comprise drug(s).

12-19-2013

20140018903

POLYMER SCAFFOLDS FOR PERIPHERAL VESSELS - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold has a structure that produces a low late lumen loss when implanted within a peripheral vessel and also exhibits a high axial fatigue life. In a preferred embodiment the scaffold forms ring structures interconnected by links, where a ring has 12 crowns and at most two links connecting adjacent rings.

01-16-2014

20140025005

COATINGS WITH TUNABLE SOLUBILITY PROFILE FOR DRUG-COATED BALLOON - A drug delivery balloon is provided, the a balloon having an outer surface, and a tunable coating disposed on at least a length of the balloon surface. The tunable coating includes a first therapeutic agent and a first excipient, and a second therapeutic agent and a second excipient. The first and second therapeutic agents have different dissolution rates during balloon inflation and therefore provide a coating that is tunable.

01-23-2014

20140031921

CRUSH RECOVERABLE POLYMER SCAFFOLDS - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold, after being deployed by the balloon, provides a crush recovery of about 90% after the diameter of the scaffold has been pinched or crushed by 50%. The scaffold has a pattern including an asymmetric closed cell connecting links connecting the closed cells.

01-30-2014

20140039604

CRUSH RECOVERABLE POLYMER SCAFFOLDS - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold, after being deployed by the balloon, provides a crush recovery of about 90% after the diameter of the scaffold has been pinched or crushed by 50%. The scaffold has a pattern including an asymmetric closed cell connecting links connecting the closed cells.

02-06-2014

20140058499

Crush Recoverable Polymer Scaffolds - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold, after being deployed by the balloon, provides a crush recovery of about 90% after the diameter of the scaffold has been pinched or crushed by 50%. The scaffold has a pattern including an asymmetric closed cell connecting links connecting the closed cells.

02-27-2014

20140067044

Crush Recoverable Polymer Scaffolds - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold, after being deployed by the balloon, provides a crush recovery of about 90% after the diameter of the scaffold has been pinched or crushed by 50%. The scaffold has a pattern including an asymmetric closed cell connecting links connecting the closed cells.

03-06-2014

20140075735

Crush Recoverable Polymer Scaffolds - A method of crimping a stent is disclosed. The stent includes a minimum crimped diameter such that in the minimum crimped diameter, a pair of stent rings, between which marker support structures reside, do not make contact with the marker support structures. The crimped profile of the stent of the present invention can be as small as the crimped profile of a same stent but without the maker support structures.

03-20-2014

20140090231

Crush Recoverable Polymer Scaffolds - A method of manufacturing a stent is disclosed. The stent includes a minimum crimped diameter such that in the minimum crimped diameter, a pair of stent rings, between which marker support structures reside, do not make contact with the marker support structures. The crimped profile of the stent of the present invention can be as small as the crimped profile of a same stent but without the marker support structures.

04-03-2014

20140114398

TIME-DEPENDENT POLYMER SCAFFOLDS - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold has a structure that produces a low late lumen loss when implanted within a peripheral vessel and also exhibits a high axial fatigue life. In a preferred embodiment the scaffold forms ring structures interconnected by links, where a ring has 12 crowns and at most two links connecting adjacent rings.

04-24-2014

20140114399

METHODS FOR VASCULAR RESTORATION THERAPY - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold has a structure that produces a low late lumen loss when implanted within a peripheral vessel and also exhibits a high axial fatigue life. In a preferred embodiment the scaffold forms ring structures interconnected by links, where a ring has 12 crowns and at most two links connecting adjacent rings.

04-24-2014

20140120053

POLYESTERAMIDE PLATFORM FOR SITE SPECIFIC DRUG DELIVERY - A therapeutic agent delivery system formed of a specific type of poly(ester amide) (PEA), a therapeutic agent, and a water miscible solvent is described herein. A method of delivering the therapeutic agent delivery system by delivering the therapeutic agent delivery system formed of a PEA polymer, a therapeutic agent, and a water miscible solvent to a physiological environment and separating the phase of the therapeutic agent delivery system to form a membrane from the polymer to contain the therapeutic agent within the physiological environment is also described. Additionally disclosed is a kit including a syringe and a therapeutic agent delivery system within the syringe.

05-01-2014

20140186446

Delivery of Biologic Therapeutics - Formulations and methods are disclosed which provide controlled, sustained release of a biologic therapeutic to a space within the body. More specifically, formulations comprising a plurality of hydrophilic polymer strands, and methods of forming and administering such formulations, are disclosed. In some embodiments, the formulations exhibit a burst release, an initial release, a triphasic release, and release over thirty to ninety days of the biologic therapeutic. In some embodiments, the formulations exhibit reversible precipitation of the biologic therapeutic into precipitates having a diameter of about 50 nm to about 10 μm.

07-03-2014

20140212355

TRANS-ARTERIAL DRUG DELIVERY - It is provided herein methods, devices, and compositions for trans-arterial local delivery of therapeutic agent for the treatment of liver cancers.

ELECTROPHORECTIC DRUG COATED BALLOON AND CONDUCTIVE POLYMER COATING - Balloon catheter configured to deliver a therapeutic agent upon provision of electric potential to the balloon, the catheter comprising an electrode disposed proximate the outer surface of the expandable member, a coating disposed on at least a portion of the outer surface, the coating including a therapeutic agent; and a power source in electrical communication with the electrode is described.

09-18-2014

20140276747

SYSTEM AND METHOD FOR DENERVATION - A catheter apparatus for treatment of a human patient is described, the catheter apparatus having a central axis and comprising a shaping structure moveable between a delivery state having a first helical shape, and a deployed state having a second helical shape. The shaping structure is configured to have a reverse taper with a structural diameter that varies over the length of the shaping structure such that the structural diameter of the shaping structure at the proximal end is smaller than the structural diameter of the shaping structure at the distal end.

09-18-2014

20140277331

Reducing Recoil in Peripherally-Implanted Scaffolds - A peripherally implanted polymer scaffold having a high degree of recoil is worked to reduce recoil in the scaffold when initially deployed at a target lesion in the body. The scaffold is plastically deformed from a crimped state to an expanded state by a balloon catheter. The scaffold is contained within a sheath to prevent recoil up until the point of use. Before the scaffold is introduced to the body, the restraining sheath is removed from the scaffold.

09-18-2014

20140277344

CROSS-LINKED COATING DELIVERED BY A BALLOON - The present invention relates to systems for and corresponding methods of delivering a therapeutic agent to a vessel wall of a body lumen by providing a compound capable of being crosslinked after intraluminal release onto a vessel wall so that the therapeutic agent is temporarily retained at the site of delivery by the crosslinked compound.

09-18-2014

20140277372

Polymer Scaffolds Having Enhanced Axial Fatigue Properties - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold has a morphology resulting from a biaxially expanded tube arranged to provide a more balanced, or less anisotropic axial and radial mechanical properties. The scaffold has improved mechanical properties suited for use as a balloon expandable scaffold implanted in a peripheral vessel of the body.

09-18-2014

20140330363

POLYMER SCAFFOLDS HAVING A LOW CROSSING PROFILE - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold, after being deployed by the balloon, provides a crush recovery of about 90% after the diameter of the scaffold has been pinched or crushed by 50%. The scaffold also has a reduced crimped profile and a modification of the scaffold's ring structure at the crowns that contributes to the reduced crimped profile.

11-06-2014

20140364935

COUPLED SCAFFOLD SEGMENTS - A scaffold is formed by several segments joined or connected to each other by only at least one coupling. The coupling decouples the segments in the axial direction over a finite distance of axial displacement. The scaffold when implanted in a peripheral vessel reduces loading on rings of a segment due to the decoupling of the segments in the axial direction over the finite distance.